ZETA-POTENTIAL DISTRIBUTION ON CALCIUM-OXALATE CRYSTAL AND TAMM-HORSFALL PROTEIN SURFACE ANALYZED WITH DOPPLER ELECTROPHORETIC LIGHT-SCATTERING

The zeta potential distribution (ZPD) and particle size of Tamm-Horsfall protein (THP) and of calcium oxalate monohydrate (COM) crystals were measured using a Doppler Electrophoretic Light Scattering Analysis Instrument. The studies showed differences in the ZPD pattern between THP derived from normal subjects (nTHP) and from stone patients (pTHP). Both nTHP and pTHP can shift the zeta potential of calcium oxalate crystals towards more negative values; nTHP is significantly more potent than pTHP. The zeta potential of both nTHP and pTHP becomes less negative with decreasing pH and with increasing calcium concentration or ionic strength. Tamm-Horsfall protein particle size measurements showed that nTHP particles are significantly smaller than pTHP particles. The size of both nTHP and pTHP increases with increasing calcium concentration or increasing ionic strength and with decreasing pH. The differences between nTHP and pTHP in surface charge and particle size may be based on differences in molecular structure and may cause functional differences in their ability to inhibit calcium oxalate crystal aggregation.